Printing ink formulations

ABSTRACT

Ink formulations for use in printing polyvinyl butyral sheets are described. The formulations comprise polyvinyl formal, and polyvinyl butyral sheets printed using the formulations are found to have a reduced tendency to exhibit blocking.

BACKGROUND OF THE INVENTION

This invention relates to ink formulations for use in printing polyvinylbutyral sheets particularly sheets that are to be laminated and used assafety glass interlayers and particularly windshield interlayersprovided with a gradient color band to reduce glare.

One of the problems that has to be confronted in dealing with polyvinylbutyral sheet is that when wound onto rolls after production it tends tostick to adjacent laps on the roll making separation difficult. This isknown as "blocking" and can also occur when two flat sheets are laid oneon top of the other.

The printing of polyvinyl butyral sheets is usually accomplished usingan ink formulation comprising a dye and a solvent and an additive toraise the viscosity to a level appropriate for the intended printingoperation. This may be a relatively low value as for example in ink-jetor electrostatic mist printing, or a relatively high value as forexample in rotogravure printing. Whatever the required viscosity themost practical way of achieving the adjustment is by the addition of ahigh molecular weight compound that is soluble in the ink solvent and isnot incompatible with any other component of the ink.

DESCRIPTION OF THE PRIOR ART

One way of adjusting the viscosity of the ink formulation is by theaddition of polyvinyl butyral as described in U.S. Pat. No. 3,551,406and U.S. Pat. No. 3,973,058. It is found however that this expedient hasthe result of increasing the tendency of the printed areas to "block".

This effect is somewhat reduced by the process described in the Britishprinted patent application No. 2,010,300A which describes the use of apolyvinyl butyral having a hydroxyl content of 25 to 35 weight percentas a component of the ink formulation.

It has now been found that the ink viscosity can be adjusted over a widerange using a polymeric additive that can at the same time reduce theblocking significantly below that displayed by even unprinted sheets.

DESCRIPTION OF THE INVENTION

The ink formulation of the invention comprises a dye, a solvent mediumand a polyvinyl formal in an amount sufficient to raise the viscosity ofthe ink formulation to a level dictated by the printing process in whichthe formulation is to be used.

The most significant advantage afforded by the invention is that, ratherthan causing increased blocking, the effect is actually found to bebelow that observed for even unprinted sheet. Thus, while providing auseful means of adjusting the ink formulation viscosity to a desiredlevel, the polyvinyl formal actually reduces significantly the tendencyof printed polyvinyl butyral sheets to stick together.

The ink base itself is a conventional one comprising a dye and a solventmedium. Most conventional ink solvents can be used since they are alsosolvents for the polyvinyl formal. Typical suitable solvents includeN-methyl pyrollidone, dimethyl acetamide, dimethyl formamide,cyclohexanone, tetrahydrofuran and mixtures of the above alone or withnonsolvents such as toluene.

The amount of polyvinyl formal added to the printing ink formulationwill, as indicated above, be determined to some extent by the nature ofthe printing operation with which the ink formulation is to be used. Insome processes a very fluid ink is required whereas in others a highlyviscous ink may be desired.

For gravure printing the ink viscosity is conventionally measured by theShell Cup technique in which the ink formulation is placed in a standardcup and the time to flow out through a standard aperture is measured.Using the #3 Shell cup, a viscosity of between 15 and 50 seconds isgenerally required for a gravure printing ink formulation. Other typesof printing may require higher or lower viscosities however.

The extent of the ink viscosity adjustment obtained by the incorporationof the polyvinyl formal is dependent on the amount of polyvinyl formalin the formulation and on the molecular weight of the polyvinyl formal.A higher molecular weight polyvinyl formal will be required in smalleramounts to achieve any desired viscosity level than would be required ofa lower molecular weight polyvinyl formal. Thus in selecting the amountof polyvinyl formal to be used, two factors to be considered are itsmolecular weight and the desired ink viscosity for the intended printingoperation. In practice the beneficial effects of the use of polyvinylformal become apparent when two percent or more by weight is used in theformulation. The upper limit is dictated largely by cost and theavailability of a polyvinyl formal with a suitable molecular weight butmore than 15 percent by weight of polyvinyl formal is not often requiredfor most printing operations. The above percentages of polyvinyl formalare based on the weight of the ink base, i.e., the weight of dye plussolvent in the formulation.

Polyvinyl formal as conventionally made does not comprise solely formalunits pendant from the polymer chain. Usually the product contains from5 to 45 percent by weight of acetate groups, measured as vinyl acetate,and from 2 to 15 percent by weight of hydroxyl groups, measured as vinylalcohol. The preferred polyvinyl formals for use in the inventioncomprise from 8 to 35 percent of acetate groups and from 2 to 10 percentof hydroxyl groups in each case measured by weight as vinyl acetate andvinyl alcohol groups respectively.

The weight average molecular weight of the polyvinyl formal can varywidely from, for example, 8,000 to 200,000 but the preferred polymershave a weight average molecular weight of from 8,000 to 50,000 andparticularly from 15,000 to 40,000.

As indicated above the amount of the polyvinyl formal added forpreferred gravure printing operations is from 2 to 15 percent by weightbased on the weight of the ink base formulation. In general however, thebest results are obtained at from 3 to 10 percent and preferably 3 to 8percent by weight addition levels.

The ink may comprise other components conventional in such compositionsif desired such as U.V. stabilizers, antioxidants and the like.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

The following Examples are for the purposes of illustration only and arenot intended to imply any limitation on the essential scope of theinvention.

The various parameters referred to in the Examples were determined asindicated below.

The viscosity of the ink was measured using a Shell Cup Viscometer (#3Cup ) using the technique recommended by the manufacturer (Shell CupViscometers, 1970, page 6, published by Shell Chemical Company,Petrochemicals Division). The technique involves measurement of flowtime from a standard cup through a standard aperture. The viscosity ismeasured in seconds to flow out of the cup.

The inherent blocking of the sheets was measured by press polishing thesurfaces of two sheets to remove any surface geometry variations,bringing the polished surfaces into intimate contact and then measuringthe force required to separate them. This gives a good indication of thecontribution to the blocking phenomenon that can be attributed directlyto the formulation.

The test used to determine the adhesion between a PVB sheet printed withthe ink formulation of the invention and a glass layer is known as the"peel adhesion test". The test is performed on a laminate of an adhesivecoated aluminum foil, a PVB interlayer, and a glass sheet which has beenlaminated, with the printed side of the PVB layer contacting the glass,in an oil autoclave under about 12 atmospheres pressure and 149° C. forseven minutes. The glass layer is cut through and one part is insertedin the jaws of an Instron tensile tester pulling at 90° to the plane ofthe rest of the laminate. The force required to peel the foil/interlayerfrom the glass is measured and reported in Newtons/cm.

EXAMPLE 1

A number of ink formulations were obtained and a polyvinyl butyral sheetwas printed with each under identical conditions. Three of theformulations "A", "B" and "C" were according to the invention andcontained 3.7 percent by weight of polyvinyl formal. A furtherformulation "Control 1" contained polyvinyl butyral at an equivalentlevel and represents the prior art. "Control 2" shows the effect of thesheet alone unprinted by any ink formulation.

In each case a 0.4 mm sheet of polyvinyl butyral was printed with theink composition, seasoned at 60° C. for seven days and allowed to coolto room temperature and stored for three days. The sheets were thentested for inherent blocking and peel adhesion at a moisture level inthe sheet of about 0.4 percent. The results are set forth in Table Ibelow. The ink used was a conventional blue dye in a solvent capable ofdissolving both the dye and the polyvinyl formal.

                                      TABLE I                                     __________________________________________________________________________    FORMULATION                                                                            A      B      C      CONTROL 1                                                                             CONTROL 2                               __________________________________________________________________________    .sup.(1) PVF (PVB)                                                                     PVF    PVF    PVF    PVB     None                                    Molecular wt.                                                                          26,000-34,000                                                                        16,000-20,000                                                                        10,000-15,000                                                                        180,000-270,000                                                                       --                                      Acetate Content                                                                        22-30% 9.5-13%                                                                              9.5-13%                                                                              0-2.5%  --                                      Hydroxyl Content                                                                       5.5-7% 5.0-6.5%                                                                             5.0-6.5%                                                                             17-20%  --                                      .sup.(2) Viscosity of                                                         ink formulation                                                                        10     8 (approx.)                                                                          5 (approx)                                                                           25-30                                           (sec.)                                                                        .sup.(3) Inherent block-                                                      ing (gm/cm)                                                                            10.8 ± 2.1                                                                        17.6 ± 2.8                                                                        18.1 ± 3.9                                                                        103.9 ± 19.9                                                                       36.7 ± 7.0                           .sup.(4) Peel Adhesions                                                       (N/cm)   41.8   36.9   39.8   40.2    45.0                                    __________________________________________________________________________     .sup.(1) PVF is polyvinyl formal; PVB is polyvinyl butyral. Acetate and       Hydroxyl contents are measured by weight calculated as vinyl acetate and      vinyl alcohol respectively.                                                   From the above it will be noted that the inherent blocking of the             polyvinyl formal formulations is greatly reduced by comparison with the       polyvinyl butyral formulation and is even better than the unprinted sheet     while the effect on the peel adhesion is reasonably marginal.            

EXAMPLE 2

Two printing ink formulations were produced. These were identical exceptthat one (Invention) contained 5 percent of a polyvinyl formal having aweight average molecular weight of 24,000 to 40,000, a hydroxyl content(measured as vinyl alcohol) of 5 to 6 percent by weight and an acetatecontent, (measured as vinyl acetate), of 9.5 to 13 percent by weight.The "invention" formulation had a Shell #3 cup viscosity of 31 seconds.

The second formulation "Control" comprised 3.7 percent by weight of apolyvinyl butyral, had a Shell #3 cup viscosity of from 25 to 30 and wasidentical to "Control 1" used in Example 1.

The "inherent blocking" and "peel adhesion" were measured for polyvinylbutyral automobile interlayer sheets printed with the two formulationsand for comparison sake also for unprinted sheet. All the sheets,printed and unprinted, were seasoned in a laboratory oven at 60° C. forseven days and allowed to cool at room temperature for a further threedays before being tested. The blocking was tested at a measured watercontent of 0.40 percent and the adhesion at a water content of 0.45percent. The results are set forth in Table 2 below:

                  TABLE II                                                        ______________________________________                                        INHERENT BLOCKING     PEEL ADHESION                                           gm/cm                 N/cm                                                    ______________________________________                                        Invention                                                                             8                 12                                                  Control 120               14                                                  Unprinted                                                                             80                18                                                  ______________________________________                                    

It can be seen from the above that the spectacular drop in blockingobserved upon replacement of polyvinyl butyral with polyvinyl formal isaccompanied by only a minor downward adjustment of peel adhesion.

It is anticipated that there could be a number of minor variations in ormodifications to the formulations described above without departing fromthe essential concept of the invention. It is intended that all suchvariations and modifications should fall within the general purview ofthis invention.

What is claimed is:
 1. A polyvinylbutyral interlayer printed with an inkformulation comprising a dye, a solvent medium and a polyvinyl formal inan amount sufficient to reduce blocking between polyvinyl butyral sheetsprinted using such a formulation.
 2. A polyvinyl butyral interlayerprinted with a printing ink formulation having a Shell #3 cup viscosityof from 15 to 50 seconds and comprising from 3 to 10 percent by weightof the ink base of a polyvinyl formal having a number average molecularweight of from 15,000 to 40,000 and an acetate content of from 8 to 35percent by weight, measured as vinyl acetate, and a hydroxyl content offrom 2 to 10 percent by weight measured as vinyl alcohol.
 3. A laminatecomprising a glass sheet and an interlayer according to claim
 1. 4. Alaminate comprising a glass sheet and an interlayer according to claim2.